David J Ottenheimer, Katherine R Vitale, Frederic Ambroggi, Patricia H Janak, Benjamin T Saunders
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引用次数: 0
Abstract
Basolateral amygdala (BLA) neurons are engaged by emotionally salient stimuli. An area of increasing interest is how BLA dynamics relate to evolving reward-seeking behavior, especially under situations of uncertainty or ambiguity. Here, we recorded the activity of individual BLA neurons in male rats across the acquisition and extinction of conditioned reward seeking. We assessed ongoing neural dynamics in a task where long reward cue presentations preceded an unpredictable, variably time reward delivery. We found that, with training, BLA neurons discriminated the CS+ and CS- cues with sustained cue-evoked activity that correlated with behavior and terminated only after reward receipt. BLA neurons were bidirectionally modulated, with a majority showing prolonged inhibition during cued reward seeking. Strikingly, population-level analyses revealed that neurons showing cue-evoked inhibitions and those showing excitations similarly represented the CS+ and behavioral state. This sustained population code rapidly extinguished in parallel with conditioned behavior. We next assessed the contribution of the orbitofrontal cortex (OFC), a major reciprocal partner to the BLA. Inactivation of the OFC while simultaneously recording in the BLA revealed a blunting of sustained cue-evoked activity in the BLA that accompanied reduced reward seeking. Optogenetic disruption of BLA activity and OFC terminals in the BLA also reduced reward seeking. Our data indicate that the BLA represents reward-seeking states via sustained, bidirectional cue-driven neural encoding. This code is regulated by cortical input and is important for the maintenance of vigilant reward-seeking behavior.
基底外侧杏仁核(BLA)神经元受情绪显著刺激的影响。基底外侧杏仁核(BLA)神经元受情绪显著刺激的影响。人们越来越关注的一个领域是,基底外侧杏仁核神经元的动态如何与不断变化的寻求奖赏行为相关联,尤其是在不确定或模糊的情况下。在这里,我们记录了雄性大鼠在条件奖赏寻求的获得和消退过程中单个 BLA 神经元的活动。我们在一项任务中评估了持续的神经动态,在这项任务中,在不可预测、时间可变的奖励交付之前会出现长时间的奖励提示。我们发现,经过训练后,BLA 神经元可以通过持续的线索诱发活动来区分 CS+ 和 CS- 线索,这种活动与行为相关,并且只在获得奖励后才会终止。BLA 神经元是双向调节的,其中大部分神经元在寻找提示奖励时表现出长时间的抑制。令人震惊的是,群体水平的分析表明,表现出线索诱发抑制的神经元和表现出兴奋的神经元相似地代表了 CS+ 和行为状态。这种持续的群体编码会随着条件行为的发生而迅速消失。我们接下来评估了眶额皮层(OFC)的贡献,它是 BLA 的主要互惠伙伴。在对 BLA 进行记录的同时使 OFC 失活,发现 BLA 中的持续线索诱发活动变得迟钝,同时伴随着奖励寻求的减少。光遗传破坏BLA活动和BLA中的OFC末端也会减少寻求奖赏的行为。我们的数据表明,BLA通过持续的、双向线索驱动的神经编码来表现奖赏寻求状态。这一编码受大脑皮层输入的调控,对于维持警觉的奖励寻求行为非常重要。意义声明 适当地表达当前动机奖励寻求的需要,尤其是在不确定或模糊的情况下,对于适应行为至关重要。在这里,我们记录了大鼠在条件奖赏寻求过程中杏仁基底外侧(BLA)神经元的活动,发现了一种持续的线索诱发的群体水平代码,一旦获得奖赏,这种代码就会终止。眶额皮层(OFC)是杏仁核基外侧的一个主要输入器官,它的失活削弱了杏仁核基外侧的持续线索诱发活动,并降低了寻求奖赏的程度。光遗传破坏 BLA 活动和 BLA 中的 OFC 末端也会减少寻求奖赏的行为。这些结果共同表明,BLA以持续的神经活动代表条件动机状态--这种信号对于线索刺激的奖赏寻求至关重要,并且依赖于来自眶额皮层的功能输入。
期刊介绍:
JNeurosci (ISSN 0270-6474) is an official journal of the Society for Neuroscience. It is published weekly by the Society, fifty weeks a year, one volume a year. JNeurosci publishes papers on a broad range of topics of general interest to those working on the nervous system. Authors now have an Open Choice option for their published articles
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